GNSS and optical guidance and machine control

The invention claimed is: 1. An automatic steering system for use in an agricultural vehicle, comprising: a controller configured to: send one or more steering control commands for a desired track to a vehicle steering control mechanism to steer the agricultural vehicle, the desired track including a desired position and desired heading; receive data from one or more sensors indicating a response by the agricultural vehicle to the one or more steering control commands, the data including a measured position and a measured heading; determine a position and heading deviation of the agricultural vehicle from the desired track based on a difference between the measured position and measured heading from the one or more sensors and the desired position and desired heading indicating the response by the agricultural vehicle to the one or more steering control commands; derive one or more calibration values based on the position and heading deviation of the agricultural vehicle; generate additional steering control commands for additional desired positions and desired headings based on the one or more calibration values and additional calibration values derived from additional position and heading deviations of the agricultural vehicle; send the additional steering control commands to the steering control mechanism to steer the agricultural vehicle along the desired track; and determine the additional position and heading deviations of the agricultural vehicle from the additional desired positions and desired headings based on differences between additional measured positions and measured headings from the one or more sensors and the additional desired positions and desired headings. 2. The automatic steering system of claim 1 , the controller further to: determine an expected location of the agricultural vehicle on the track line; determine a measured location of the agricultural vehicle relative to the track line based on the data from one or more sensors indicating the response by the agricultural vehicle to the one or more steering control commands; and calculate a response error based on a difference between the expected location and the measured location. 3. The automatic steering system of claim 1 , wherein the data from one or more sensors indicating the response by the agricultural vehicle to the one or more steering control commands includes: a position of the agricultural vehicle from one or more global navigation satellite sensor system (GNSS) receivers on the agricultural vehicle; and an attitude of the agricultural vehicle from one or more gyroscopes on the agricultural vehicle. 4. The automatic steering system of claim 1 , the controller further configured to: determine a first expected position of the agricultural vehicle; receive a first measured position of the agricultural vehicle from a global navigation satellite sensor system (GNSS); determine a first position deviation by the agricultural vehicle from the desired track based on a difference between the first expected position and the first measured position; determine a first expected attitude of the agricultural vehicle; receive a first measured attitude of the agricultural vehicle from one or more gyroscopes; determine a first attitude deviation based on a difference between the first expected attitude and the first measured attitude; send a first set of one or more steering control commands to the vehicle steering control mechanism based on the first position deviation and the first attitude deviation; determine a second expected position and attitude of the agricultural vehicle based on the first set of one or more steering control commands; receive a second measured position of the agricultural vehicle from the GNSS and a second measured attitude of the agricultural vehicle from the one or more gyroscopes; determine a second position deviation based on a difference between the second expected position and the second measured position and determine a second attitude deviation based on a difference between the second expected attitude and the second measured attitude; and send a second set of one or more steering control commands to the vehicle steering control mechanism based on the second position and attitude deviations. 5. The automatic steering system of claim 1 , wherein the data from one or more sensors indicating the response by the agricultural vehicle to the one or more steering control commands includes an attitude of the agricultural vehicle. 6. The automatic steering system of claim 1 , wherein the data from one or more sensors indicating the response by the agricultural vehicle to the one or more steering control commands includes a velocity of the agricultural vehicle. 7. The automatic steering system of claim 1 , wherein the data from one or more sensors indicating the response by the agricultural vehicle to the one or more steering control commands includes a rate-of-turn of the agricultural vehicle. 8. The automatic steering system of claim 1 , wherein the data from one or more sensors indicating the response by the agricultural vehicle to the one or more steering control commands comprises at least one of global navigation satellite sensor system (GNSS) data, gyroscope data, accelerometer data, compass data, magnetic sensor data, inclinometer data, and radar data. 9. The automatic steering system of claim 1 , wherein the one or more sensors comprise at least one of one or more global navigation satellite sensor system (GNSS) receivers, one or more gyroscopes, one or more accelerometers, one or more compasses, one or more magnetic sensors, one or more inclinometers, and one or more radar devices in a self-contained, unitary enclosure. 10. The automatic steering system of claim 1 , the controller further configured to: calculate a response time of the agricultural vehicle to the one or more steering control commands, and generate the additional steering control commands based, in part, on the response time. 11. The automatic steering system of claim 1 , wherein the controller is configurable to operate independently of a vehicle or implement and is configurable to operate with any one of multiple different agricultural vehicles or agricultural implements, and the controller dynamically calibrates different steering control commands based on an attached one of the different agricultural vehicles or agricultural implements. 12. The automatic steering system of claim 1 , the controller to: measure a rate of turn of the agricultural vehicle in response to the one or more steering control commands; and adjust the rate of turn using a proportional steering control command based on differences between measured position and attitude values and expected position and attitude values. 13. The automatic steering system of claim 1 wherein the agricultural vehicle is a tractor. 14. The automatic steering system of claim 1 wherein the agricultural vehicle is an implement attached to a tractor. 15. The automatic steering system of claim 1 , wherein the position and heading data comprises at least one of global navigation satellite sensor system (GNSS) data, gyroscope data, accelerometer data, and compass data.